Inspired by the Japanese art of kirigami, an MIT team has designed a technique that could transform flat panels into medical devices, habitats, and other objects without the use of tools.

Researchers at UCLA have found a way to supercharge immune cells with a fuel source that tumors can't steal, dramatically improving their ability to survive and attack solid tumors in preclinical ...

This Research Topic is a collection of insights, research, and perspectives emerging from the 16th International Meeting on Visualizing Biological Data ...

Nitrogen is introduced into synthetic diamond plates to create so-called NV centers (nitrogen vacancy centers, or nitrogen-substituted centers). The nitrogen atom knocks out the carbon atom, the ...

Researchers at Rice University have developed a bottom-up method for growing patterned diamond surfaces to cool electronics.

Conservation has never lacked ideas. Protected areas, payments for ecosystem services, community management, certification schemes, and public campaigns have all been promoted as solutions to ...

After changing how we eat and how we trip, the author returns to his garden — and the page — to examine the mystery of ...

Gigasoft releases ProEssentials v10 with GPU compute shaders and publishes six-part WPF chart library comparison for ...

At Rice University, a research lab's signature keepsake has helped perfect a method for growing patterned diamond surfaces ...

The discovery presents some of the oldest physical evidence that tooth-blackening trends in Vietnam have stayed consistent for a very, very long time.

The Kiel University scientist discusses how advanced materials processing is shaping medical manufacturing and improving drug performance.